Physics:Cross-phase modulation
Cross-phase modulation (XPM) is a nonlinear optical effect where one wavelength of light can affect the phase of another wavelength of light through the optical Kerr effect. When the optical power from a wavelength impacts the refractive index, the impact of the new refractive index on another wavelength is known as XPM.
Applications of XPM
Cross-phase modulation can be used as a technique for adding information to a light stream by modifying the phase of a coherent optical beam with another beam through interactions in an appropriate nonlinear medium. This technique is applied to fiber optic communications. If both beams have the same wavelength, then this type of cross-phase modulation is degenerate.[1]
XPM is among the most commonly used techniques for quantum nondemolition measurements.
Other advantageous applications of XPM include:
- Nonlinear optical Pulse Compression of ultrashort pulses
- Passive mode-locking
- Ultrafast optical switching
- Demultiplexing of OTDM channels
- Wavelength conversion of WDM channels
- Measurement of nonlinear optical properties of the media (non-linear index n2 (Kerr nonlinearity) and nonlinear response relaxation time)[1]
Disadvantages of XPM
XPM in DWDM applications
In dense wavelength-division multiplexing (DWDM) applications with intensity modulation and direct detection (IM-DD), the effect of XPM is a two step process: First the signal is phase modulated by the copropagating second signal. In a second step dispersion leads to a transformation of the phase modulation into a power variation. Additionally, the dispersion results in a walk-off between the channels and thereby reduces the effect of XPM.
- XPM leads to interchannel crosstalk in WDM systems
- It can produce amplitude and timing jitter
See also
- Self-phase modulation — SPM
- Four wave mixing — FWM
- Stimulated Raman scattering — SRS
- Cross-polarized wave generation — XPW
References
- ↑ 1.0 1.1 Petrov, Nikolay V.; Sergei S. Nalegaev; Andrei V. Belashov; Igor A. Shevkunov; Sergei E. Putilin; Yu-Chih Lin; Chau-Jern Cheng (2018). "Time-resolved inline digital holography for the study of noncollinear degenerate phase modulation". Optics Letters 43 (15): 3481. doi:10.1364/OL.43.003481. Bibcode: 2018OptL...43.3481P. https://www.researchgate.net/publication/326424496_Time-resolved_inline_digital_holography_for_the_study_of_noncollinear_degenerate_phase_modulation.pdf.
External links
Original source: https://en.wikipedia.org/wiki/Cross-phase modulation.
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